Laminating resins having low organic emissions (II)

ABSTRACT

A laminating resin is made from (1) an unsaturated polyester resin comprising maleic acid, phthalic acid, and glycol(s), (2) a diacrylate or dimethacrylate of alkoxylated bisphenol-A, and (3) ethylene glycol dimethacrylate. The resin requires no styrene to achieve excellent laminating resin properties, and is significantly inhibited from emitting volatiles during use.

RELATED APPLICATIONS

This is a divisional of application Ser. No. 205,233, filed Mar. 3, 1994, now U.S. Pat. No. 5,500,171, which is a continuation-in-part of our application Ser. No. 024,022, filed Mar. 1, 1993, now abandoned.

TECHNICAL FIELD

This invention relates to resin compositions which cure as they are shaped, laminated, brushed, sprayed or otherwise more or less incrementally placed into the space where they are to form a product; such resins are broadly known as laminating resins, commonly have an unsaturated polyester resin base, are mixed with glass fiber reinforcement, and nearly always are employed in a solution of an organic monomer such as styrene. The organic monomer is intended to copolymerize with the resin but typically and notoriously may also tend to volatilize in significant amounts into the workplace environment. The present invention is a composition and method which can be used in existing equipment, procedures, and workplaces, but which will emit far less monomer than the typical laminating resin and method heretofore.

Background of the Invention

Many attempts have been made to devise laminating resins having low volatile emissions and still meet the physical specifications and other desirable properties of the end products, while remaining relatively easy to use. In Lee U.S. Pat. No. 4,465,806, for example, a more or less conventional unsaturated polyester resin is combined with, instead of the usual styrene, a reaction product of a polyepoxy compound and acrylic or methacrylic acid which may be the diacrylate of a polyglycidyl ether of bisphenol-A. These compounds are made from epoxy compounds, and the author of U.S. Pat. No. 4,465,806 requires that a significant portion of the epoxy groups be unreacted for use in their resin. Moreover, unlike the present invention, they form pendant OH groups.

Ethoxylated, difunctional, bisphenol-A has been used in the past as an ingredient in various types of resins, generally resins which include a significant diisocyanate component, as in Ford, Jr. et al U.S. Pat. 3,876,726.

European Patent Application 0 234 692 discloses a composition said to be useful as a molding resin, having the virtue of a low residual monomer concentration in the final product. The gist of the disclosure appears to be that dimethacrylates such as ethoxylated bisphenol-A dimethacrylate can be used as components of otherwise more or less conventional unsaturated polyester resins to reduce the amount of residual styrene monomer in contained molding processes such as cell molding, compression molding, and sheet molding. See also Reid and Rex U.S. Pat. No. 5,202,366, which includes a low-profile additive in a similar composition.

The daunting problem of volatile emissions during spray-up or other laminating procedures has until now been unsolved. Applicants' dramatic results detailed herein show that lamination can be used with significantly reduced emissions in the workplace.

SUMMARY OF THE INVENTION

Our new laminating resin comprises three components. The first is a base resin comprising glycols and unsaturated dicarboxylic acids; optionally the base resin may also contain a saturated dicarboxylic acid. In polymeric form, they are typically maleic and phthalic acid residues, with optional isophthalic residues, interspersed with glycol residues. These glycols are commonly ethylene glycol, diethylene glycol, propylene glycol and dipropylene glycol, usually as mixtures, but many other glycols can be utilized; dicyclopentadiene may be included as well, as is known in the art. The second component is a diacrylate or dimethacrylate of alkoxylated bisphenol-A of the formula ##STR1## where m and n are independently numbers from 1 to about 10, and R¹ and R² are independently, in each alkoxy group, hydrogen or CH₃. Hydroxyethyl or hydroxypropyl groups should comprise about 19-71% of the weight of this ingredient. These two ingredients may be present in weight ratios of about 2.0:1 to about 0.5:1. The composition also includes about 20-60% based on the total of the two above ingredients of ethylene glycol dimethacrylate. The above-described composition may also include from 1% to about 10% of N-vinyl pyrrolidone or 1% to about 20% cyclohexyl methacrylate or both, and/or 1% to about 30% vinyl toluene or divinyl benzene or a mixture thereof. Since our objective is to design a composition which works very well as a laminating resin without significant styrene emissions, the addition of styrene to the recipe defeats that purpose and is not recommended, but the composition will continue to be operable as an excellent laminating resin even though some styrene is included. The composition will also tolerate many other minor ingredients known to be useful in the unsaturated polyester and laminating art.

A volatility of 20.0 g/m² or less, as measured by the test of Section 1162 of the Regulations of the South Coast (California) Air Quality District, was significantly achieved by applicants in the present invention. In fact, applicants' resins all measured under 10.0 g/m².

DETAILED DESCRIPTION OF THE INVENTION

While the problem at hand is to create a formulation which drastically differs from commercial standard laminating resins in terms of volatile emissions during application, the market dictates that it must be accomplished without significantly altering the widely used equipment and techniques of application. Accordingly, the following criteria are to be kept in mind at all times:

1. Reduced emission of volatile organic compounds--regulations will become more stringent with time.

2. Less potential hazard to human health and the environment--regulations will also become more stringent with time.

3. Minimal increase in cost when commercialized, and reason to believe cost will be reduced in the long run.

4. Compatibility between components of the resin system.

5. Reactivity that is similar to that of styrenated polyester resins.

6. Viscosity that is similar to that of styrenated polyester resins--100 to 400 cps.

7. Physical properties similar to or better than those of styrenated polyester resin.

8. Ability to wet glass and bond to other components of an assembly.

Persons skilled in the art will realize that number 7, relating to physical properties of the final product, can by itself include several important specifications. Thus, the problem is not simply one of finding a monomer which is not as volatile or objectionable as styrene. Rather, many criteria have to be balanced, and, with thousands of chemicals to consider, analysis of the combinations and their effects is extremely difficult. One must decide on the important functions and properties, settle on a systematic but simple screening process, and try to develop a short list of prospective formulations which have a good chance of meeting all the criteria within a practical time period.

The proliferation of input variables to attain these objectives may be further appreciated by considering the more or less conventional unsaturated polyester compositions which may be used as a base. They are prepared by polycondensation of polycarboxylic acid derivatives, one of which must be an alpha, beta-ethylenically unsaturated polycarboxylic acid, and polyols. By polycarboxylic acid derivatives we mean to include polycarboxylic acids, their esters of lower alcohols, their acid chlorides and their anhydrides.

The ratio of polycarboxylic acid to polyol is usually a 1:1 molar ratio. However, in most esterification processes, a slight excess of polyol is utilized to compensate for polyol losses during esterification. Also, although dicarboxylic acids and diols are most frequently utilized and the 1:1 molar ratio is prevalent, the utilization of triols and the like requires the ratio of acid to polyol to be stated more precisely as one equivalent of acid per equivalent of polyol.

The unsaturated polyesters useful in this invention may be prepared from an acid mixture wherein the unsaturated polycarboxylic acid comprises as little as 20 mole percent of the total acids present, although it is generally preferred that the unsaturated polycarboxylic acid comprises about 30% or more of the total acid content.

Some of the unsaturated polycarboxylic acids useful in preparing unsaturated polyesters used in this invention include:

    ______________________________________                                         Maleic acid        Citraconic acid                                             Fumaric acid       Glutaconic acid                                             Itaconic acid      Chloromaleic acid                                           Mesaconic acid                                                                 ______________________________________                                    

and the like, wherein the term "acid" is used to include the corresponding anhydrides where such anhydrides exist.

Some of the saturated and aromatically unsaturated polycarboxylic acids optionally useful in preparing unsaturated polyesters used in this invention include:

    ______________________________________                                         Phthalic acid        Isophthalic acid                                          Tetrahydrophthalic acid                                                                             Hexahydrophthalic acid                                    Endomethylene tetrahydrophthalic acid                                                               Glutaric acid                                             Tetrachlorophthalic acid                                                                            Suberic acid                                              Hexachloroendomethylene                                                                             Sebacic acid                                              tetrahydrophthalic acid                                                        Succinic acid                                                                  Adipic acid                                                                    ______________________________________                                    

and the like, wherein the term "acid" includes the corresponding anhydrides where such anhydrides exist.

Polyols useful in preparing polyesters for use in this invention are polyfunctional alcohols of the type conventionally utilized in polyester preparation. Such polyols include:

    ______________________________________                                         Ethylene glycol       1,5 propanediol                                          Propylene glycol      Triethylene glycol                                       Butylene glycol       Glycerol                                                 Diethylene glycol     1,4,6-hexanetriol                                        Trimethylolpropane    Trimethylolethane                                        Dipropylene glycol    Pentaerythritol                                          Neopentyl glycol                                                               Alkoxylated 2,2-bis(4-hydroxyphenyl)                                           propane                                                                        ______________________________________                                    

and the like. Although diols are generally preferred in the preparation of unsaturated polyesters, the more functional polyols, i.e. polyols having a functionality of three to five, are sometimes used.

In addition, dicyclopentadiene may be included and may be considered a normal part of the "base resin" as used herein.

During the development of the formulation, various monomers and monomer substitutes were screened, using two different "base" resins--one having dicyclopentadiene as a major ingredient and one without dicyclopentadiene. Following are results for the base resin without dicyclopentadiene:

A base resin composition (hereafter designated "Resin A") was prepared having the following ingredients:

    ______________________________________                                         Base Resin*           60 parts by weight                                       12% Cobalt (Promoter) 00.30                                                    Potassium (Co-promoter)                                                                              00.20                                                    N,N-Dimethylacetoacetamide                                                                           00.30                                                    (Accelerator)                                                                  DDM-9 (Initiator)     01.50                                                    Monomer (as indicated below)                                                                         40                                                       ______________________________________                                                       Parts by                                                         *Base Resin (Polymer)                                                                        weight    lbs/100 lbs                                                                               lbs/60 lbs                                  ______________________________________                                         Propylene Glycol                                                                             22.788    31.97      19.18                                       Diethylene Glycol                                                                            04.937     6.93       4.16                                       Phthalic Anhydride                                                                           32.734    45.92      27.55                                       Maleic Anhydride                                                                             10.820    15.18       9.11                                                     71.279    100.00     60.00                                       ______________________________________                                    

The following "monomers" were utilized with Resin A:

    __________________________________________________________________________                             Exotherm                                                                             Gel Time                                                                            Interval                                    Monomer     Mod L.sup.1)                                                                        Viscosity                                                                             °F.                                                                           min:sec                                                                             min:sec                                     __________________________________________________________________________     Styrene     0.120                                                                               low    335    4:30                                                                                4:39                                       Vinyl Toluene                                                                              0.120                                                                               low    317    4:50                                                                                5:04                                       Diallyl phthalate                                                                          0.000                                                                               high   119   19:27                                                                               27:43                                       Methacrylates                                                                  n-butyl     0.001                                                                               low    186   40:58                                                                                5:28                                       n-hexyl     0.001                                                                               incompatible                                                  isodecyl    0.001                                                                               incompatible                                                  cyclohexyl  0.001                                                                               high*  287   16:50                                                                                3:50                                       2-phenoxyethyl                                                                             0.001                                                                               high   196    8:45                                                                                3:29                                       allyl       0.001                                                                               low    331   18:20                                                                                3:37                                       2-hydroxyethyl                                                                             0.001                                                                               low    247    4:48                                                                                3:35                                       2-hydroxyethyl                                                                             0.010                                                                               low    249    4:30                                                                                3:20                                       dicyclopentyl                                                                              0.001                                                                               very high                                                                             199    3:40                                                                                4:11                                       isobornyl   0.000                                                                               incompatible                                                  isophoronyl 0.010                                                                               incompatible                                                  Dimethacrylates                                                                1,6-hexanediol                                                                             0.001                                                                               high   241    7:54                                                                                3:34                                       ethylene glycol (EG)                                                                       0.001                                                                               low    275    2:48                                                                                3:37                                       ethylene glycol                                                                            0.005                                                                               low    274    2:52                                                                                3:50                                       diethylene glycol                                                                          0.001                                                                               medium >210   4:03                                                                                2:12                                       diethylene glycol                                                                          0.010                                                                               medium 252    5:40                                                                                3:13                                       tetraethylene glycol                                                                       0.001                                                                               medium 241    3:18                                                                                3:17                                       triethylene glycol                                                                         0.001                                                                               medium 229    2:52                                                                                3:46                                       neopentyl glycol                                                                           0.001                                                                               high   235    4:20                                                                                4:09                                       ethoxylated BPA                                                                            0.001                                                                               very high                                                                             171    8:50                                                                                7:30                                       C14 diol    0.001                                                                               incompatible                                                  Trimethacrylate                                                                trimethylol propane                                                                        0.001                                                                               high   228    2:28                                                                                4:25                                       Mixtures                                                                       30 EG dimethacrylate/                                                                      0.010                                                                               medium 295    1:49                                                                                3:12                                       10 N-vinyl pyrrolidinone                                                       30 EG dimethacrylate/                                                                      0.010                                                                               medium 286    3:11                                                                                3:29                                       10 divinyl benzene                                                             30 vinyl toluene/                                                                          0.200                                                                               low    289   16:10                                                                                4:44                                       10 N-vinyl pyrrolidinone                                                       __________________________________________________________________________      *This was considered unsatisfactory, but when ethoxylated BPA                  dimethacrylate was included to make a 3part mixture, viscosity was             lowered. Of all the above substitutions for monomer, only the Nvinyl           pyrrolidinone, divinyl benzene, ethylene glycol dimethacrylate, cyclohexy      methacrylate, and vinyl toluene were not ruled out. The rest were              eliminated from consideration because they were slow to react with             polyester as shown by long gel time and/or low exotherm or they were not       sufficiently compatible with polyester as shown by high viscosity or the       outright failure to dissolve.                                                  .sup.1) Mod L is 25% hydroquinone in propylene glycol.                   

Liquid resin properties measured in the experiments reported below were gel time, (reported in the tables herein in minutes and seconds, as 13:17, for example), room temperature interval time, which is the time between gelation and the exothermic peak, room temperature exothermic peak which is the highest temperature reached in a 100 g mass of resin during the curing process, Brookfield viscosity, and Barcol hardness by ASTM D2583. For volatile emissions, we followed the Rule 1162 Standard Method for Static Volatile Emissions of the South Coast Air Quality Management District (California) which is incorporated herein by reference. This test is accepted as a predictor of volatile emissions in the workplace during spray-up lamination procedures. Its results are reported in two ways--grams per square meter of weight loss, and the time of emissions, in minutes and seconds. The latter measurement entails noting the point in time in which weight loss is no longer recorded, thus requiring that weight be monitored beyond the time noted.

The test requirements are as follows: An environment at 77° C. and 50% relative humidity is maintained. If a controlled environment is not available, conditions should be reported for which measurements are made. A 200 gm pre-promoted resin is weighed out into a suitable dry and clean container. The container is covered and placed in a 25° C. temperature bath. A balance is placed in a draft free enclosure. A gallon lid is cleaned with solvent and wiped dry. The diameter is measured to the nearest 0.1 cm. The gallon lid is placed on an inverted paper or plastic cup mounted on the balance pan. A bent paper clip is positioned in the center of the gallon lid. This weight (TARE WEIGHT) is recorded. The container is taken from the temperature bath and an appropriate volumetric or weight measure of catalyst is added. A timer is started at this point. The catalyst is mixed with the resin for one minute. The INITIAL WEIGHT is determined by pouring 100.0±0.5 gm of catalyzed resin into the can lid and recording the weight. Next, the paper clip is used to determine when the resin has hardened sufficiently to allow the resin or lid to be lifted. The time (gel time) is recorded at this point. The resin is then allowed to harden in the can lid and every 15 minutes it is reweighed until concurrent weights agree to within 0.05 gm. This is recorded as the FINAL WEIGHT. The entire procedure should be repeated until duplicate samples agree to the nearest 5 gm/m².

The volatile emissions per square meter are calculated as follows: ##EQU1##

The clear castings tests adopted were as follows:

1. Tensile strength--ASTM D638.

2. Tensile modulus--ASTM D638.

3. Elongation--ASTM D638.

4. Flexural strength--ASTM D790.

5. Flexural modulus--ASTM D790.

6. Heat deflection temperature--ASTM D648.

7. Water absorption at 150° F.--ASTM D570 (modified).

The water absorption test was modified as follows: the temperature was set at 150° F. and long term immersion was set at one week. In the data reported in Table I, Resin A is as described above in terms of weight; it is, in molar equivalents, a polyester resin composed of 1.0 mole maleic anhydride, 2.0 moles phthalic anhydride, 0.42 mole diethylene glycol and 2.71 moles propylene glycol. Resin B is similar to Resin A with a lower viscosity by an adjustment of the cook, as is known in the art. Sartomer CD480 is ethoxylated bisphenol-A dimethacrylate where m and n in the above formula total 10. Sartomer 348 is ethoxylated bisphenol-A dimethacrylate where m and n in the above formula are both 1. Mod L is 25% hydroquinone and 75% propylene glycol.

From the data in Table I, it can be seen that formulations S and O have better than acceptable resin properties and clear casting properties, and have volatile emissions far less than the rate of the more or less classical commercial resin A2.

In Tables II and III, nine additional formulations are shown. From these it will be seen that cyclohexyl methacrylate causes undesirable properties when used as the only material in addition to the base resin and the ethoxylated BPA dimethacrylate. But there are extraordinarily low emissions from all nine of the formulations. The use of vinyl toluene to reduce the viscosity is certainly not detrimental to emissions results.

                                      TABLE I                                      __________________________________________________________________________     RESIN             A2    C2    S     Z     A1    O                              __________________________________________________________________________     Resin A           60.00 60.00 40.00 35.00 35.00 --                             Resin B           --    --    --    --    --    45.00                          Sartomer CD480    --    --    15.00 15.00 15.00 10.00                          Bartoner 348      --    --    20.00 20.00 20.00 15.00                          EG Dimethacrylate --    --    25.00 10.00 20.00 30.00                          Vinyl Toluene     --    40.00 --    10.00 --    --                             Cyclohexyl Methacrylate                                                                          --    --    --    10.00 --    --                             Divinyl Benzene   --    --    --    --    10.00 --                             Styrene           40.00 --    --    --    --    --                             Mod L             0.20  0.22  0.06  0.12  0.12  0.06                           RESIN PROPERTIES                                                               Gel time, min:sec 12:39 13:17 21:18 18:29 11:30 5:20                           Interval, min:sec 5:58  6:54  4:32  4:11  3:26  3:19                           Exotherm peak, °F.                                                                        345   324   249   276   294   245                            Viscosity, cps, 75° F.                                                                    315   340   1,390 426   624   396                            1162 Emissions, G/M2                                                                             31.5  20.6E 3.6   6.1   9.7   3.6                            Barcol hardness                                                                45 minutes        45    42    47    44    52    34                             One hour          45    43    50    49    53    36                             24 hours          49    49    52    51    54    36                             CLEAR CASTING PROPERTIES                                                       Tensile strength, psi                                                                            9,308 7,555 8,069 9,635 8,176 10,179                         Ten. modulus, 10-5 psi                                                                           0.549 0.534 0.466 0.565 0.575 0.567                          Elongation, %     1.9   1.6   3.2   2.7   1.9   2.3                            Flexural strength, psi                                                                           16,008                                                                               15,317                                                                               10,475                                                                               16,889                                                                               15,780                                                                               16,013                         Flex modulus, 10-5 psi                                                                           0.586 0.573 0.322 0.444 0.482 0.498                          Heat deflect. temp, °F.                                                                   144   138   169   142   147   141                            Water absorption, % at 150° F.                                          One day           0.89  0.91  1.01  1.19  1.26  1.43                           7 days            1.89  1.89  2.12  1.65  1.76  2.14A                          __________________________________________________________________________      E  This value was estimated based on the difference in results caused by       using different and points for the 1162 test.                                  A  The surfaces of the test specimens were alligatored. This indicates a       more severe problem than the weight gain indicates.                      

                                      TABLE II                                     __________________________________________________________________________     Low VOC Laminating Resins Based on General Purpose Polyester Polymer           Resin         E-3B  F-3    G-3   H-3   I-3                                     __________________________________________________________________________     Composition                                                                    Resin A       35.00 35.00  35.00 35.00 35.00                                   Sartomer 480  15.00 15.00  15.00 15.00 15.00                                   Sartomer 348  20.00 20.00  20.00 20.00 20.00                                   EG Dimethacrylate                                                                            --    15.00  --    15.00 20.00                                   Cyclohexyl Methacrylate                                                                      30.00 15.00  15.00 --    05.00                                   Vinyl Toluene --    --     15.00 15.00 05.00                                   Mod L         00.00 00.00  00.17 00.17 00.06                                   12% Cobalt    00.30 00.30  00.30 00.30 00.30                                   16% Potassium 00.20 00.20  00.20 00.20 00.20                                   Dimethyl Acetoacetamide                                                                      00.30 00.30  00.30 00.30 00.30                                   Resin Properties                                                               Gel Time, min:sec                                                                            48:00 27:55  33:52 25:10 30:40                                   Interval, min:sec                                                                            10:49 05:01  07:07 03:51 05:23                                   Exotherm, °F.                                                                         229   239    244   291   258                                     Viscosity, cps @ 75° F.                                                               1,280 1,085  560   650   930                                     Barcol-45 minutes                                                                            00.0  31.7   00.0  00.0  26.6                                    one hour      00.0  47.3   29.7  47.0  48.7                                    two hours     00.0  48.6   45.6  50.8  51.0                                    three hours   00.0  48.2   45.9  49.8  51.1                                    four hours    00.0  48.6   46.0  50.3  51.2                                    24 hours      38.2  48.4   47.2  50.7  51.5                                    1162 Emissions, G/M2                                                                         2.4   6.1    3.6   4.2   3.0                                     Emissions, min:sec                                                                           60:55 36:42  53:46 29:15 36:18                                   Properties of a Clear Casting                                                  HDT, °F.                                                                              129   138    138   159   163                                     Tensile Strength, psi                                                                        9,290 8,980  9,580 9,140 6,050                                   Ten Modulus, 10-5 psi                                                                        0.451 0.481  0.485 0.544 0.587                                   Elongation, % 3.10  2.40   2.50  2.00  1.20                                    Flexural Strength, psi                                                                       14,400                                                                               >16,130                                                                               18,400                                                                               19,660                                                                               17,150                                  Flex Modulus, 10-5 psi                                                                       0.488 0.520  0.662 0.664 0.633                                   Water Absorption @ 150° F.                                              24 hours      1.06  1.08   1.07  0.95  1.07                                    seven days    2.43  2.19   1.78  1.84  2.06                                    __________________________________________________________________________

                                      TABLE III                                    __________________________________________________________________________     Low VOC Laminating Resins Based on General Purpose Polyester Polymer           Resin         U-3   ZA     V-3   Z     Q-4                                     __________________________________________________________________________     Composition                                                                    Resin A       35.00 35.00  35.00 35.00 30.00                                   Sartomer 480  15.00 15.00  15.00 15.00 20.00                                   Sartomer 348  20.00 20.00  20.00 20.00 20.00                                   EG Dimethacrylate                                                                            15.00 10.00  --    10.00 30.00                                   Cyclohexyl Methacrylate                                                                      05.00 10.00  --    10.00 --                                      Vinyl Toluene 10.00 10.00  30.00 10.00 --                                      Mod L         00.13 00.06  00.20 00.12 00.10                                   12% Cobalt    00.30 00.30  00.30 00.30                                         16% Potassium 00.20 00.20  00.20 00.20                                         Dimethyl Acetoacetamide                                                                      00.30 00.30  00.30 00.30                                         Resin Properties                                                               Gel Time, min:sec                                                                            38:05 38:15  37:36 18:29 14:10                                   Interval, min:sec                                                                            06:07 07:37  09:49 04:11 4:38                                    Exotherm, °F.                                                                         277   277    273   276   233                                     Viscosity, cps @ 75° F.                                                               790   710    382   426   400                                     Barcol-45 minutes                                                                            00.0  00.0   00.0  44.0  50.1                                    one hour      37.0  32.2   39.9  48.0  51.9                                    two hours     48.6  47.2   46.0  --    52.1                                    three hours   48.5  47.6   46.2  --    52.1                                    four hours    48.5  47.8   46.9  --    52.1                                    24 hours      48.5  48.7   46.9  51.0  52.1                                    1162 Emissions, G/M2                                                                         7.3   2.4    1.8   6.1   0.6                                     Emissions, min:sec                                                                           44:22 48:20  51:35 --    16:00                                   Properties of a                                                                Clear Coating                                                                  HDT, °F.                                                                              136   138    138   142   210                                     Tensile strength, psi                                                                        10,120                                                                               10,370 9,500 9,635 5,660                                   Ten Modulus, 10-5 psi                                                                        0.489 0.540  0.501 0.565 0.516                                   Elongation, % 2.70  2.60   2.30  2.70  1.30                                    Flexural Strength, psi                                                                       18,750                                                                               19,410 >19,150                                                                              16,889                                                                               14,550                                  Flex Modulus, 10-5 psi                                                                       --    --     --    0.444 0.508                                   Water Absorption @ 150° F.                                              24 hours      1.06  1.04   0.81  1.19                                          seven days    1.78  1.87   1.43  1.65                                          __________________________________________________________________________

Based on experimental work performed subsequent to the filing of the parent application Ser. No. 024,022, abandoned, ethylene glycol dimethacrylate is useful in our composition and method. Accordingly, our invention comprises a composition comprising (a) the base polyester polymer (resin) as described above and the alkoxylated bisphenol-A diacrylate or dimethacrylate in a ratio of 2:1 to 0.5:1 and (b) about 20% to about 60%, based on the total of (a) and (b), of ethylene glycol dimethacrylate. In Tables I, II, and III, the various "Sartomer" compositions, i.e. the ethoxylated bisphenol-A dimethacrylates, have 2 and 10 ethoxy groups on both sides of the bisphenol-A; however, we may employ a single compound or compounds having any variation of combinations of ethoxy or propoxy groups from two to about 20 groups, preferably a total of 2 to 8 alkoxy groups. 

We claim:
 1. A laminating resin composition characterized by low volatile emissions comprising (A) a base resin comprising glycols, unsaturated polycarboxylic acids or derivatives thereof, and, optionally, saturated dicarboxylic acids and (B) alkoxylated bisphenol-A diacrylate or dimethacrylate having at least two alkoxy groups, in a weight ratio of (A) to (B) of 2:1 to 0.5:1, and (C) about 20% to about 60% by weight, based on the total of components (A) and (B) of ethylene glycol dimethacrylate, and wherein said composition emits no more than 20.0 g/m² of volatile emissions as measured by Section 1162 of the Regulations of the South Coast (California) Air Quality District.
 2. Laminating resin composition of claim 1 including from 1% to about 10%, based on the overall composition, of N-vinyl pyrrolidone.
 3. Laminating resin composition of claim 1 including from 1% to about 20%, based on the overall composition, of cyclohexyl methacrylate.
 4. A laminating resin of claim 1 wherein the weight ratio of (A) to (B) is about 1:1. 